An electromagnetic effect suppressing termination part is provided for a fastener formed of a metallic material, the fastener having a head, a shank, and a threaded portion opposite the head. The termination part includes a main body defining an internally threaded portion configured to threadably receive the threaded portion of the fastener, the internally threaded portion defining a thread major diameter. A collar is coupled to a distal end of the main body by a frangible web, wherein the main body, collar, and frangible web are formed of a metallic core coated by a layer of dielectric material. The frangible web, when broken, presents an exposed portion of the metallic core, wherein the frangible web includes an inner surface radially outwardly offset from the thread major diameter of the internally threaded portion by a setback distance.
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8. A fastener assembly for protection against electromagnetic effects, the fastener assembly comprising:
a fastener formed of a metallic material and having a head, a shank, and a threaded portion opposite the head;
a termination part having a metallic core coated by a layer of dielectric material, the termination part including:
a main body defining an internally threaded portion configured to threadably receive the threaded portion of the fastener, the internally threaded portion defining a thread major diameter;
a collar coupled to a distal end of the main body by a frangible web, wherein the frangible web when broken presents an exposed portion of the metallic core, the frangible web including an inner surface radially outwardly offset from the thread major diameter of the internally threaded portion by a setback distance, the setback distance being approximately 0.5 mm or greater.
1. An electromagnetic effect suppressing termination part for a fastener formed of a metallic material, the fastener having a head, a shank, and a threaded portion opposite the head, the termination part comprising:
a main body defining an internally threaded portion configured to threadably receive the threaded portion of the fastener, the internally threaded portion defining a thread major diameter; and
a collar coupled to a distal end of the main body by a frangible web;
wherein the main body, collar, and frangible web are formed of a metallic core coated by a layer of dielectric material;
wherein the frangible web when broken presents an exposed portion of the metallic core, the frangible web including an inner surface radially outwardly offset from the thread major diameter of the internally threaded portion by a setback distance, the setback distance being approximately 0.5 mm or greater.
18. A method of fastening a structural assembly while suppressing electromagnetic effects, the method comprising:
inserting a fastener formed of a metallic material through a first structural member so that a shank of the fastener extends through a first through hole formed in the first structural member, the fastener including a threaded portion;
threading a termination part having a metallic core coated by a layer of dielectric material onto the fastener, the termination part having a main body defining an internally threaded portion configured to threadably receive the threaded portion of the fastener, the internally threaded portion defining a thread major diameter;
applying torque to a collar of the termination part until a frangible web connecting the collar to a distal end of the main body of the termination part breaks, wherein the frangible web when broken presents an exposed portion of the metallic core, the frangible web including an inner surface radially outwardly offset from the thread major diameter of the internally threaded portion by a setback distance, the setback distance being approximately 0.5 mm or greater.
2. The electromagnetic effect suppressing termination part of
3. The electromagnetic effect suppressing termination part of
4. The electromagnetic effect suppressing termination part of
5. The electromagnetic effect suppressing termination part of
6. The electromagnetic effect suppressing termination part of
7. The electromagnetic effect suppressing termination part of
9. The fastener assembly of
10. The fastener assembly of
11. The fastener assembly of
13. The fastener assembly of
14. The fastener assembly of
15. The fastener assembly of
a first structural member having a first through hole; and
a second structural member having a second through hole aligned with the first through hole;
wherein the shank of the fastener extends through the first and second through holes.
16. The fastener assembly of
17. The fastener assembly of
19. The method of
20. The method of
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The present disclosure generally relates to fasteners and, more specifically, to fastener termination parts that provide protection against electromagnetic effects.
The use of lightweight composite materials in vehicles, such as aircraft, provide an improved strength-to-weight ratio that translates to fuel savings and lower operational costs. Composite materials, however, do not readily conduct away extreme electrical currents and electromagnetic forces generated by lightning strikes. Furthermore, composite or metallic structures used on vehicles are typically assembled using metallic fastener systems, which are conductive and therefore create electromagnetic effect (EME) design considerations. For example, fastener sparking modes must be designed for lightning conditions that include hot particle ejection and arcing between the fastener and surrounding structures.
In accordance with one aspect of the present disclosure, an electromagnetic effect suppressing termination part is provided for a fastener formed of a metallic material, the fastener having a head, a shank, and a threaded portion opposite the head. The termination part includes a main body defining an internally threaded portion configured to threadably receive the threaded portion of the fastener, the internally threaded portion defining a thread major diameter. A collar is coupled to a distal end of the main body by a frangible web, wherein the main body, collar, and frangible web are formed of a metallic core coated by a layer of dielectric material. The frangible web, when broken, presents an exposed portion of the metallic core, wherein the frangible web includes an inner surface radially outwardly offset from the thread major diameter of the internally threaded portion by a setback distance.
In accordance with another aspect of the present disclosure, a fastener assembly is provided for protection against electromagnetic effects. The fastener assembly includes a fastener formed of a metallic material and having a head, a shank, and a threaded portion opposite the head. The fastener assembly also includes a termination part having a metallic core coated by a layer of dielectric material, the termination part including a main body defining an internally threaded portion configured to threadably receive the threaded portion of the fastener, wherein the internally threaded portion defines a thread major diameter. The termination part also includes a collar coupled to a distal end of the main body by a frangible web, wherein the frangible web when broken presents an exposed portion of the metallic core. The frangible web includes an inner surface radially outwardly offset from the thread major diameter of the internally threaded portion by a setback distance.
In accordance with a further aspect of the present disclosure, a method of fastening a structural assembly while suppressing electromagnetic effects includes inserting a fastener formed of a metallic material through a first structural member so that a shank of the fastener extends through a first through hole formed in the first structural member, the fastener including a threaded portion. The method further includes threading a termination part having a metallic core coated by a layer of dielectric material onto the fastener, the termination part having a main body defining an internally threaded portion configured to threadably receive the threaded portion of the fastener, the internally threaded portion defining a thread major diameter. A torque is applied to a collar of the termination part until a frangible web connecting the collar to a distal end of the main body of the termination part breaks, wherein the frangible web when broken presents an exposed portion of the metallic core. The frangible web includes an inner surface radially outwardly offset from the thread major diameter of the internally threaded portion by a setback distance.
In another aspect of the disclosure that may be combined with any of these aspects, the setback distance is sufficient to prevent arcing between the exposed portion of the metallic core and the threaded portion of the fastener.
In another aspect of the disclosure that may be combined with any of these aspects, the shank of the fastener has a shank diameter, and the setback distance is approximately 1/25 to ¼ of the shank diameter.
In another aspect of the disclosure that may be combined with any of these aspects, the main body further defines a proximal end nearer the head of the fastener, and a counterbore hole is formed in the proximal end, wherein an annular seal is disposed in the counterbore hole.
In another aspect of the disclosure that may be combined with any of these aspects, the annular seal is formed of a polymeric material.
In another aspect of the disclosure that may be combined with any of these aspects, a washer is located adjacent the proximal end of the main body.
In another aspect of the disclosure that may be combined with any of these aspects, the frangible web is configured to break at a predetermined torque threshold
The features that have been discussed can be achieved independently in various embodiments or may be combined in yet other embodiments, further details of which can be seen with reference to the following description and drawings.
It should be understood that the drawings are not necessarily drawn to scale and that the disclosed embodiments are sometimes illustrated schematically. It is to be further appreciated that the following detailed description is merely exemplary in nature and is not intended to limit the invention or the application and uses thereof. Hence, although the present disclosure is, for convenience of explanation, depicted and described as certain illustrative embodiments, it will be appreciated that it can be implemented in various other types of embodiments and in various other systems and environments.
The following detailed description is of the best currently contemplated modes of carrying out the invention. The description is not to be taken in a limiting sense, but is made merely for the purpose of illustrating the general principles of the invention, since the scope of the invention is best defined by the appended claims.
The embodiments disclosed herein provide apparatus and systems for terminating fasteners in a manner that protects against EME. A termination part for a fastener includes a frangible collar that breaks when sufficient torque is applied during assembly on the fastener. When the frangible collar breaks, a portion of a metallic core of the termination part is exposed, potentially exacerbating EME. According to certain aspects of the present disclosure, the frangible collar is configured so that the exposed portion of the core is spaced sufficiently from the fastener to reduce EME.
Referring to
An exemplary fastener assembly 30 that protects against EME is illustrated at
A fastener 40 formed of metallic material is provided to fasten together the first and second structural members 32, 34. As best shown in
A termination part 50 is provided for terminating the fastener 40, so that the fastener assembly 30 securely fastens the first and second structural members 32, 34, as best shown in
With reference to
The termination part 50 further includes a collar 72 coupled to the distal end 60 of the main body 56 by a frangible web 74 to provide torque control during assembly of the termination part 50 on the fastener 40. As best shown with reference to
The frangible web 74 is further configured to protect against EME. More specifically, when the frangible web 74 is broken and the collar 72 removed, an exposed portion 80 of the metallic core 52 of the termination part 50 is present. Exposed metallic material in proximity to the metallic fastener 40 may increase the likelihood of EME. Accordingly, the frangible web 74 has an inner surface 82 that is radially outwardly offset by a setback distance 84 from the female thread major diameter 68, as best shown in
Optionally, the fastener assembly 30 may further include a washer 86. The washer 86 may be disposed between the proximal end 58 of the main body 56 and the second structural member 34. The optional washer 86 is shown in
While a fastener assembly 30 is described above as having the fastener 40 and the termination part 50 to secure together first and second structural members 32 34, it will be appreciated that the termination part 50 may be used with a single structural member, more than two structural members, or provided individually for use with an existing fastener and/or structural members. As presented in the appended claims, the termination part 50 includes the main body 56, collar 72, and frangible web 74, with the inner surface 82 of the frangible web 74 radially outwardly offset from the female thread major diameter 68 by the setback distance.
At block 102 of the method 100, a fastener 40, formed of a metallic material, is inserted through a first structural member so that a shank of the fastener extends through a first through hole of the first structural member. The fastener includes a male threaded portion.
At block 104, a termination part, having a metallic core coated by a layer of dielectric material, is threaded onto the fastener. The termination part has a main body defining an internally threaded portion configured to threadably receive the threaded portion of the fastener. The internally threaded portion defines a female thread major diameter.
At block 106, torque is applied to a collar of the termination part until a frangible web connecting the collar to a distal end of the main body of the termination part breaks. When the frangible web breaks, an exposed portion of the metallic core is presented. The frangible web includes an inner surface outwardly radially offset from the female thread major diameter of the internally threaded portion by a setback distance. The setback distance is sufficient to prevent arcing between the exposed portion of the metallic core and the threaded portion of the fastener.
Although described in terms of specific structures and components, other configurations and/or other components may be utilized, potentially in other environments. Moreover, although the disclosure presents structures in only shapes and sizes depicted, numerous variations of disclosed structures may be envisioned for use in alternative embodiments, as may be appreciated by those skilled in the art.
Sisco, Tanni, Simpson, Blake A., Morden, Sean D., Brockway, Monica J., Chan, Kwok-Tung
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Mar 28 2018 | SIMPSON, BLAKE A | The Boeing Company | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 045396 | /0386 | |
Mar 28 2018 | SISCO, TANNI | The Boeing Company | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 045396 | /0386 | |
Mar 28 2018 | BROCKWAY, MONICA J | The Boeing Company | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 045396 | /0386 | |
Mar 29 2018 | CHAN, KWOK-TUNG | The Boeing Company | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 045396 | /0386 | |
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